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Simulations of Water-Air Flows With Low and High Pressure Ratios

المصدر: المجلة الجامعة
الناشر: جامعة الزاوية - مركز البحوث والدراسات العليا
المؤلف الرئيسي: Jolgam, Shaban (Author)
مؤلفين آخرين: Ballil, Ahmed (Co-Author) , Nowakowsk, Andrew (Co-Author)
المجلد/العدد: مج19, ع3
محكمة: نعم
الدولة: ليبيا
التاريخ الميلادي: 2017
الشهر: يوليو
الصفحات: 87 - 108
رقم MD: 1264151
نوع المحتوى: بحوث ومقالات
اللغة: الإنجليزية
قواعد المعلومات: EduSearch, EcoLink, IslamicInfo, AraBase, HumanIndex
مواضيع:
كلمات المؤلف المفتاحية:
Compressible Multiphase Flow | Hyperbolic Pdes | Riemann Problem | Godunov Methods | Shock Waves | HLL Riemann Solver
رابط المحتوى:
صورة الغلاف QR قانون
حفظ في:
LEADER 02742nam a22002897a 4500
001 2016881
041 |a eng 
044 |b ليبيا 
100 |9 673914  |a Jolgam, Shaban  |e Author 
245 |a Simulations of Water-Air Flows With Low and High Pressure Ratios 
260 |b جامعة الزاوية - مركز البحوث والدراسات العليا  |c 2017  |g يوليو 
300 |a 87 - 108 
336 |a بحوث ومقالات  |b Article 
520 |b Numerical simulation of two phase flows, which includes interface creation and evolution, is a challenging task due to its complexity. In this contribution, simulations of water-air flows characterised by high and low pressure jumps across the interface are presented. A computer program using "C" language is developed to compute a fully non-equilibrium two-phase flow model. The model consists of seven partial differential equations in one dimensional flow as follows: mass, momentum and energy equations for each constituent augmented by a volume fraction evolution equation for one of the constituents. A diffuse interface numerical method is employed to capture the interface evolution in different water-air flow regimes. This method is based on an extended second order finite volume Godunov-type approach. A fixed Eulerian mesh is built and fluxes at each cell boundaries are computed using an efficient HLL approximate Riemann solver. Velocity and pressure relaxation procedures are applied to fulfill the interface conditions. Two case studies are considered to verify the developed code. The first case considers the water-air shock tube problem, which provides a high pressure ratio of (104) and the second test considers the water-faucet flow, which provides a low pressure ratio of (1). The obtained results show very good agreement with both the exact solutions and other published results. 
653 |a محاكاه تدفق المياه  |a القابلية للضغط  |a خوارزميات الموائع  |a الهندسة الميكانيكية 
692 |b Compressible Multiphase Flow  |b Hyperbolic Pdes  |b Riemann Problem  |b Godunov Methods  |b Shock Waves  |b HLL Riemann Solver 
700 |9 673917  |a Ballil, Ahmed  |e Co-Author 
700 |9 673920  |a Nowakowsk, Andrew  |e Co-Author 
773 |4 العلوم الإنسانية ، متعددة التخصصات  |4 العلوم الاجتماعية ، متعددة التخصصات  |6 Humanities, Multidisciplinary  |6 Social Sciences, Interdisciplinary  |c 012  |e University Bulletin  |l 003  |m مج19, ع3  |o 0928  |s المجلة الجامعة  |v 019 
856 |u 0928-019-003-012.pdf 
930 |d n  |p y  |q n 
995 |a EduSearch 
995 |a EcoLink 
995 |a IslamicInfo 
995 |a AraBase 
995 |a HumanIndex 
999 |c 1264151  |d 1264151 

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